Student creative activity of the Department for Academic Year 2011/12
Student Creative Activity (SCA) is supported by the Department as students’ voluntary activity of bachelor and master degree study programs. The aim is to develop students’ ability of independent creative solutions of technical problems and to assist the Department teachers in building laboratory equipment for teaching respectively to implement the partial findings of scientific research. Annually success within the SCA is not only to get active students, but then also implement a number of different complex devices or workflows. Department tend its activity within the SCA to simulation area of complex systems and to the implementation of smaller functional units based on microprocessor systems.
Both form of Auxiliary Research Assistant (ARA) and Auxiliary Educational Assistant (AEA) are interesting for the Department. The obligation to participate at the Student Creative Activity competition held around May at the Faculty of Military Technology with the work resolution is for accepted ARA.
List of Topics:
Topic title |
Assembly and startup of the functional device BITSCOPE |
Determination |
PVS |
Annotation |
"Bitscope" PC oscilloscope and analyzer construction kit assembly |
Work outcomes |
Finished and functional device Bitscope. |
Requirements for the solver |
Skill in mounting DPS and recovery of electronic equipment. |
Proposer |
prof. Ing. Rudolf Jalovecký, CSc. |
Topic title |
Designs and programmingof communication link between laboratory instrument and MATLAB software enviroment. |
Determination |
PVS |
Annotation |
Solver designs and then programme communication link between laboratory instrument "Demonstration aircraft rudder functions" and development in MATLAB-SIMULINK. It will be communication through virtual COM port with conversion to USB interface. |
Work outcomes |
Control of rudders on laboratory instrument from application SW in MATLAB-SIMULINK (eg. shock absorber or a simple autopilot). |
Requirements for the solver |
The work clearly aims to programming in MATLAB-SIMULINK, the knowledge of this SW is necessary. |
Proposer |
prof. Ing. Rudolf Jalovecký, CSc. |
Topic title |
Aerial digital magnetic compass |
Determination |
PVS |
Annotation |
Design and implementation of the model structure of a digital magnetic compass air. Measurement of the course will not be influenced compass flight dynamics. |
Work outcomes |
A computer model or a partial realization of a digital magnetic compass air. |
Requirements for the solver |
The ability to create mathematical and computer models of simple physical objects. |
Proposer |
doc. Ing. Jan Čižmár, CSc. |
Topic title |
Detection of objects in the image |
Determination |
PVS |
Annotation |
Detection of objects in the image using the IR camera in Matlab. |
Work outcomes |
Algorithms for image processing and object in the image implemented in Matlab. |
Requirements for the solver |
Knowledge work in Matlab. Basic knowledge of methods for image processing. |
Proposer |
mjr. Ing. Martin Polášek |
Topic title |
The development of the correlation receiver signal GNSS |
Determination |
PVS |
Annotation |
The aim of this work is the design and implementation of GNSS signal correlators allowing synchronization and reception of signals by array. |
Work outcomes |
Finished and working in the proposal correlator array. |
Requirements for the solver |
Knowledge of signal processing methods, the ability to write applications in VHDL. |
Proposer |
mjr. Ing. Petr Bojda, Ph.D. |
Topic title |
Analysis, development and verification activities tracking GNSS signals receiver circuits |
Determination |
PVS |
Annotation |
The development of basic numerical models tracking signal receiver circuitry of the selected satellite navigation systems and their verification using software-defined navigation receiver SX-NSR. |
Work outcomes |
The model selected parts of the tracking loops in Matlab or Simulink, an algorithm for the receiver SX-NSR, the results of numerical experiments and measurements on a real signal. |
Requirements for the solver |
Knowledge of the principles of measurement and signal processing in the receiver signal GNSS, the ability to program in Matlab and Simulink, basic knowledge of another programming language (preferably C or C + +). |
Proposer |
mjr. Ing. Petr Bojda, Ph.D. |
Topic title |
Development of numerical model tracking GNSS signal receiver circuits |
Determination |
PVS |
Annotation |
The aim of this work is the design and implementation of the numerical model monitoring navigation receiver circuits for testing and simulation of their dynamic properties. |
Work outcomes |
Model of the whole tracking loops in Matlab or Simulink and the results of numerical experiments. |
Requirements for the solver |
Knowledge of the principles of measurement and signal processing in the receiver signal GNSS, the ability to program in Matlab and Simulink. |
Proposer |
mjr. Ing. Petr Bojda, Ph.D. |
Topic title |
The use of LEDs in the relegation signal devices |
Determination |
PVS |
Annotation |
Laboratory measurements of light descending signal characteristics. Specification requirements for the LED light source. Preparation of LED light source for emitting glide. |
Work outcomes |
Ready light source based on LEDs located in the glide signal. |
Requirements for the solver |
Skill in the electronic laboratory measurements and commissioning of electronic equipment. |
Proposer |
pplk. Ing Jaroslav Jeřábek, Ph.D. |
Other topic will appear soon.